Hélène M. Faessel scite author profile

SummaryThis trial was conducted to determine the dose-limiting toxicities (DLTs) and maximum tolerated dose (MTD) of the first in class NEDD8-activating enzyme (NAE) inhibitor, pevonedistat, and to investigate pevonedistat pharmacokinetics and pharmacodynamics in patients with acute myeloid leukaemia (AML) and myelodysplastic syndromes (MDS). Pevonedistat was administered via a 60-min intravenous infusion on days 1, 3 and 5 (schedule A, n = 27), or days 1, 4, 8 and 11 (schedule B, n = 26) every 21-days. Dose escalation proceeded using a standard '3 + 3' design. Responses were assessed according to published guidelines. The MTD for schedules A and B were 59 and 83 mg/m 2 , respectively. On schedule A, hepatotoxicity was dose limiting. Multi-organ failure (MOF) was dose limiting on schedule B. The overall complete (CR) and partial (PR) response rate in patients treated at or below the MTD was 17% (4/23, 2 CRs, 2 PRs) for schedule A and 10% (2/19, 2 PRs) for schedule B. Pevonedistat plasma concentrations peaked after infusion followed by elimination in a biphasic pattern. Pharmacodynamic studies of biological correlates of NAE inhibition demonstrated target-specific activity of pevonedistat. In conclusion, administration of the first-in-class agent, pevonedistat, was feasible in patients with MDS and AML and modest clinical activity was observed.

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Pevonedistat, a first-in-class NEDD8-activating enzyme inhibitor, combined with azacitidine in patients with AML

Swords

Coutré²,

Maris

et al. 2018

174

149

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Pevonedistat (TAK-924/MLN4924) is a novel inhibitor of NEDD8-activating enzyme (NAE) with single-agent activity in relapsed/refractory acute myeloid leukemia (AML). We performed a phase 1b study of pevonedistat (PEV) with azacitidine (AZA) based on synergistic activity seen preclinically. Primary objectives included safety and tolerability, and secondary objectives included pharmacokinetics (PK) and disease response. Patients ≥60 years with treatment-naive AML (unfit for standard induction therapy) received PEV 20 or 30 mg/m IV on days 1, 3, and 5 combined with fixed-dose AZA (75 mg/m IV/subcutaneously) on days 1 to 5, 8, and 9, every 28 days. The most common treatment-emergent adverse events were constipation (48%), nausea (42%), fatigue (42%), and anemia (39%). In total, 11 deaths were observed and considered unrelated to study therapy by the investigators. Transient elevations in aspartate aminotransferase (AST) and alanine aminotransferase (ALT) were dose limiting. The recommended phase 2 dose (RP2D) of PEV in this combination is 20 mg/m PEV PK was not altered by the addition of AZA. Overall response rate (ORR) based on an intent-to-treat analysis was 50% (20 complete remissions [CRs], 5 complete remission with incomplete peripheral count recovery, 7 partial remissions [PRs]), with an 8.3-month median duration of remission. In patients receiving ≥6 cycles of therapy (n = 23, 44%), ORR was 83%. In patients with TP53 mutations, the composite CR/PR rate was 80% (4/5). Two of these patients stayed on study for >10 cycles. Baseline bone marrow blast percentage or cytogenetic/molecular risk did not influence ORR. This study was registered at www.clinicaltrials.gov as #NCT01814826.

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Phase I Study of the Investigational NEDD8-Activating Enzyme Inhibitor Pevonedistat (TAK-924/MLN4924) in Patients with Advanced Solid Tumors

et al. 2016

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Purpose: To determine the dose-limiting toxicities (DLTs) and maximum tolerated dose (MTD) of the investigational NEDD8-activating enzyme (NAE) inhibitor pevonedistat (TAK-924/ MLN4924) and to investigate pevonedistat pharmacokinetics and pharmacodynamics in patients with advanced nonhematologic malignancies.Experimental Design: Pevonedistat was administered via 60-minute intravenous infusion on days 1 to 5 (schedule A, n ¼ 12), or days 1, 3, and 5 (schedules B, n ¼ 17, and C, n ¼ 19) of 21-day cycles. Schedule B included oral dexamethasone 8 mg before each pevonedistat dose. Dose escalation proceeded using a Bayesian continual reassessment method. Tumor response was assessed by RECIST 1.0.Results: Schedule A MTD was 50 mg/m 2 ; based on the severity of observed hepatotoxicity, this schedule was discontinued. Schedules B and C MTDs were 50 and 67 mg/m 2 , respectively. DLTs on both these schedules included hyperbilirubinemia and elevated aspartate aminotransferase. There were no grade !3 treatmentrelated serious adverse events reported on schedules B or C.

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Phase I Study of the Novel Investigational NEDD8-Activating Enzyme Inhibitor Pevonedistat (MLN4924) in Patients with Relapsed/Refractory Multiple Myeloma or Lymphoma

et al. 2016

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Purpose Evaluate the safety, pharmacokinetic profile, pharmacodynamic effects, and antitumor activity of the first-in-class investigational NEDD8-activating enzyme (NAE) inhibitor pevonedistat (TAK-924/MLN4924) in patients with relapsed/refractory lymphoma or multiple myeloma. Experimental Design Patients with relapsed/refractory myeloma (n=17) or lymphoma (n=27) received intravenous pevonedistat 25–147 mg/m2 on days 1, 2, 8, 9 (schedule A; n=27) or 100–261 mg/m2 on days 1, 4, 8, 11 (schedule B; n=17) of 21-day cycles. Results Maximum tolerated doses were 110 mg/m2 (schedule A) and 196 mg/m2 (schedule B). Dose-limiting toxicities included febrile neutropenia, transaminase elevations, muscle cramps (schedule A), and thrombocytopenia (schedule B). Common adverse events included fatigue and nausea. Common grade ≥3 events were anemia (19%; schedule A), and neutropenia and pneumonia (12%; schedule B). Clinically significant myelosuppression was uncommon. There were no treatment-related deaths. Pevonedistat pharmacokinetics exhibited a biphasic disposition phase and approximate dose-proportional increases in systemic exposure. Consistent with the short mean elimination half-life of ~8.5 hours, little-to-no drug accumulation in plasma was seen after multiple dosing. Pharmacodynamic evidence of NAE inhibition included increased skin levels of CDT-1 and NRF-2 (substrates of NAE-dependent ubiquitin ligases), and increased NRF-2-regulated gene transcript levels in whole blood. Pevonedistat-NEDD8 adduct was detected in bone marrow aspirates, indicating pevonedistat target engagement in the bone marrow compartment. Three lymphoma patients had partial responses; 30 patients achieved stable disease. Conclusions Pevonedistat demonstrated anticipated pharmacodynamic effects in the clinical setting, a tolerable safety profile, and some preliminary evidence that may be suggestive of the potential for activity in relapsed/refractory lymphoma.

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A Review of the Clinical Pharmacokinetics and Pharmacodynamics of Varenicline for Smoking Cessation

Faessel

Obach

Rollema

et al. 2010

Clinical Pharmacokinetics

108

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Varenicline tartrate (Chantix®/Champix®) is a selective partial agonist of the α(4)β(2) nicotinic acetylcholine receptor and is approved as an aid to smoking cessation. The usual oral dosage in adults is 1 mg twice daily for 12 weeks, with an initial titration week. Several clinical pharmacology studies have characterized the pharmacokinetics of varenicline in adult smokers aged 18-55 years, elderly smokers and nonsmokers aged ≥ 65 years, adolescent smokers aged 12-17 years and subjects with impaired renal function. Varenicline exhibits linear pharmacokinetics following single- and multiple-dose administration of up to 3 mg/day. After oral administration absorption is virtually complete and systemic availability is high. Oral bioavailability is not affected by food or time-of-day dosing; maximum plasma drug concentrations typically occur within 3-4 hours after dosing. Protein binding of varenicline is low (≤ 20%) and independent of age and renal function. Varenicline is almost exclusively excreted unchanged in urine, primarily through glomerular filtration, with some component of active tubular secretion via human organic cation transporter, hOCT-2. Varenicline does not undergo significant metabolism and is not metabolized by hepatic microsomal cytochrome P450 (CYP) enzymes. Consistent with an elimination half-life of ∼24 hours, steady-state conditions are reached within 4 days of repeat dosing. There are no remarkable differences between smokers and nonsmokers in metabolism or excretion of varenicline. In vitro, varenicline does not inhibit nor induce the activity of the major CYP enzymes. No clinically meaningful pharmacokinetic drug interactions are observed when varenicline is coadministered with the narrow therapeutic index drugs warfarin or digoxin, the smoking cessation therapies bupropion or transdermal nicotine, and the renally secreted drugs cimetidine or metformin. An integrated model-based analysis of varenicline pharmacokinetics across several studies in adult smokers further showed that renal function was the clinically important factor leading to interindividual variability in systemic exposure to varenicline. Although no dose adjustment is required for subjects with mild to moderate renal impairment, a dose reduction to 1 mg/day is indicated for subjects with severe renal insufficiency. After accounting for renal function, there was no apparent effect of age, sex or race on varenicline pharmacokinetics. Varenicline pharmacokinetics in adolescents were generally comparable to those in adults; the bodyweight effect, which resulted in greater exposure in individuals of smaller body size (weighing ≤ 55 kg), was adequately offset by administration of half the dose recommended in adults. (It is, however, important to note that varenicline is currently not approved for use in smokers aged under 18 years). Exposure-response analyses relating individual-specific drug exposure to clinical responses consistently showed that the end-of-treatment abstinence rate in adult smokers increased linearly with increas...

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